SU1118836A1 - Heat pump - Google Patents

Abstract

A HEAT PUMP containing a first circulation circuit and a compressor included in it, a condenser and a forcoidator connected in series, a throttle and an evaporator, a second circulation loop in which the drive-driven pump and the first heat exchanger-cooler are installed in series and connected to the first circulation circuit the circuit through the evaporator, as well as the second heat exchanger-cooler, which is connected to the condenser through the water and connected in series along the cooled product line with the first heat exchanger -cooler, characterized in that, in order to increase efficiency by reducing energy costs for heating water, the first circulation circuit further comprises a second evaporator with a choke and an independent source of heating medium connected in parallel to the first evaporator cooled, and on the cooled product line before the first heat exchanger an additional cooler (L is fitted with a temperature sensor electrically connected to the pump drive and throttles. 00 sk with O5

Description

The invention relates to refrigeration, in particular to heat pumps.

Known refrigeration unit containing a compressor, a condenser, an inductor, an evaporator, a secondary coolant circuit passing through the evaporator [1].

A disadvantage of the known installation is the low efficiency when it is used for cooling food products.

A heat pump is known, comprising a first circulation circuit and ¹ compressor included in it, a condenser and a pre-condenser, a choke and an evaporator connected in series through water, a second circulation circuit in which a pump with a drive and a first heat exchanger-cooler are installed in series upstream connected to the condenser by water and connected in series along the line of the cooled product with the first heat exchanger-cooler [2].

The disadvantage of this installation is ² low efficiency when the heat pump without a refrigerated product.

The purpose of the invention is to increase the efficiency of the installation by reducing energy costs for heating water. 2

This goal is achieved by the fact that in a heat pump containing a first circulation circuit and a compressor included in it, a condenser and a pre-condenser, a throttle and an evaporator connected in series through water, a second circulation circuit ³ , in which a pump with a drive and a first heat exchanger are installed in series cooler, and which is connected to the first circulation circuit through the evaporator, as well as the second 3 heat exchanger-cooler, upstream connected to the condenser by water and connected in series along the cooling line th teploobmennikomohladitelem first product, the first circulation loop further comprises a second evaporator ⁴ with the throttle and autonomous heating medium source, connected in parallel with the first evaporator, and a cooled product line before the first set teploobmennikomohladitelem temperature sensor 4 is electrically connected to drive the pump and the throttle.

The drawing shows a diagram of the proposed heat pump.

The installation comprises a first circulation circuit 1, a compressor 2, sequentially connected through water 3 a condenser 4 and a pre-condenser 5, a choke 6 with a drive 7, an evaporator 8, a second circulation circuit 9, a pump 10, its drive 11, a first heat exchanger-cooler 12 , a second heat exchanger-cooler 13, a line of the cooled product 14, a second evaporator 15, a choke 16 with a drive 17, an autonomous ₅ source of heating medium 18, as well as a temperature sensor 19 and a choke 20.

The proposed installation works as follows.

From the compressor 2, the compressed refrigerant vapor enters the pre-condenser 5, cooling ^{0 is} given by the water coming from the condenser 4 to a temperature close to the condensation temperature. Hot water is sent to the consumer. Condensation of the refrigerant occurs in the condenser 4, cooled 5 by water 3, coming from the second heat exchanger-cooler 13. Warm water after the condenser 4 is divided into two streams. The main stream is diverted to the consumer, and part is sent to the pre-condenser 5. The liquid refrigerant, passing throttle ⁰ gun 6, reduces the temperature and pressure and enters the evaporators 8 or 15. In the evaporator 8, the refrigerant receives heat taken from the cooled product 14 in the first heat exchanger -cooling 12. The movement 5 of the coolant in the second circulation circuit 9 is provided by the pump 10. The second evaporator 15 is washed by the flow of coolant from an independent source of heating medium 18. In the initial period of operation of the installation, when there is no liquid food ⁰ , the evaporator 8 is turned off by the actuator 7 of the choke 6 by the command of the temperature sensor 19 and the refrigerant is evaporated in the evaporator 15. Simultaneously with the shutdown of the evaporator 8, the sensor 19 gives _{5 a} command to turn off the drive 11 of the pump 10 and it does not work. The intensity of the evaporator can be adjusted by changing the coolant flow rate, washing the evaporator 15. In the presence of a liquid food product by the temperature sensor 19 with a command for the drive power of ⁰ · 17 throttle 16 evaporator 15 switches off, washed by the flow of the heating medium, and starts the pump 10. Throttle device 6 in this case should be in the "Open" position. If necessary, both evaporators can participate in the operation.

The economic effect of the introduction of the proposed installation is achieved by reducing the cost of electricity and its maintenance, and its use allows ^{0 to} fully satisfy the need for cold for cooling food products, and the required amount of hot water without the use of additional energy sources.

ВНИИПИ Order 7411/27 Circulation 513 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

A HEAT PUMP containing a first circulation circuit and a compressor included in it, a condenser and a pre-condenser, a choke and an evaporator connected in series through water, a second circulation circuit in which a pump with a drive and a first heat exchanger-cooler are installed in series and which is connected to the first circulation circuit through the evaporator, as well as a second heat exchanger-cooler, connected up to the condenser via water and connected in series along the line of the cooled product with the first heat exchanger-cooler It is characterized in that, in order to increase efficiency by reducing energy costs for heating water, the first circulation circuit further comprises a second evaporator with a choke and an autonomous source of heating medium, connected in parallel with the first evaporator of the cooled, and on the line of the cooled product in front of the first heat exchanger-cooler additionally “a temperature sensor is installed, electrically connected to the pump drive and chokes.